月球上的激光:对开创性月球通信基础设施的建议

IF 1.6 4区计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS

IEEE Pervasive Computing Pub Date : 2023-04-01 DOI:10.1109/MPRV.2023.3275772

Nathaniel G. Gordon, Damiano Marsili, Ioannis Nikas, Nicolò Boschetti

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引用次数: 0

摘要

未来将人类送上月球的任务将需要快速而有弹性的通信基础设施，以允许居住者在不同的轨道飞行器、漫游车和空间站之间进行通信，并将有价值的数据传回地球。这项工作首先审查空间通信的两项核心使能技术:射频和光链路。这些方法在NASA和私人实体最近和正在进行的任务的背景下进行比较。然后，我们提出了一套关于月球通信基础设施的建议，以实现居住。三大支柱统一了该方法:可扩展的设计和能力，对环境和网络威胁的弹性，以及对广泛任务概况的普遍适用性。讨论了减轻已识别的弱点和实现所描述的功能所必需的工程工作和重点领域。最后，我们强调了几个即将到来的任务的重要性，这些任务将成为证明光链路作为可靠通信基础设施可行性的里程碑。

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Lasers on the Moon: Recommendations for Pioneering Lunar Communication Infrastructure

Future missions carrying humans to the moon will require fast and resilient communication infrastructure to allow occupants to communicate between various orbiters, rovers, and stations—and to relay valuable data back to Earth. This work begins by examining the two core enabling technologies for space communications: radiofrequency and optical links. These approaches are compared in the context of recent and ongoing missions by NASA and private entities. We then propose a set of recommendations for lunar communications infrastructure to enable habitation. Three pillars unify the approach: scalable design and capabilities, resilience to environmental and cyber threats, and universal applicability to a wide range of mission profiles. The engineering efforts and areas of focus necessary to mitigate identified weaknesses and achieve the described capabilities are discussed. We conclude by highlighting the significance of several upcoming missions that will serve as milestones in proving the viability of optical links as dependable communications infrastructure.

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来源期刊

IEEE Pervasive Computing 工程技术-电信学

CiteScore

4.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： IEEE Pervasive Computing explores the role of computing in the physical world–as characterized by visions such as the Internet of Things and Ubiquitous Computing. Designed for researchers, practitioners, and educators, this publication acts as a catalyst for realizing the ideas described by Mark Weiser in 1988. The essence of this vision is the creation of environments saturated with sensing, computing, and wireless communication that gracefully support the needs of individuals and society. Many key building blocks for this vision are now viable commercial technologies: wearable and handheld computers, wireless networking, location sensing, Internet of Things platforms, and so on. However, the vision continues to present deep challenges for experts in areas such as hardware design, sensor networks, mobile systems, human-computer interaction, industrial design, machine learning, data science, and societal issues including privacy and ethics. Through special issues, the magazine explores applications in areas such as assisted living, automotive systems, cognitive assistance, hardware innovations, ICT4D, manufacturing, retail, smart cities, and sustainability. In addition, the magazine accepts peer-reviewed papers of wide interest under a general call, and also features regular columns on hot topics and interviews with luminaries in the field.